C. Padmini scite author profile

As CMOS technology down sized into double digit nanometer ranges, variations are a serious concern due to uncertainty in devices and interconnect characteristics. The single event upset (SEU) is changing the state of a memory cell due to the strike of an energetic particle. The single event multiple effects are likely to increase in nanometer CMOS technology due to reduced device size and scaling of power supply voltage.SRAM cells are sensitive to radiation induced hazards. Therefore, designing a reliable novel SRAM cell is an important challenge against SEU. In this paper, the proposed SRAM cell that provides a better features than their recent proposed SRAM cells. The simulation results and analysis represent that the proposed SRAM cell exhibits the high robustness against single event multiple effects (SEMEs). Moreover, the proposed SRAM cell successfully reduced the power consumption by 41% and write delay by 2% in comparison with the existing radiation-hardened SRAM cells at the cost of circuit complexity. The process corner analysis displays the comparison of power and delay of the proposed and existing SRAM cells. It shows that the proposed memory cell consumes less power than previous memory cells.

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An Efficient Intruder Avoidance Method for MANETs

Jagadeesh¹,

Padmini²

2014

IJCA

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Among all the up to date wireless networks, Mobile Adhoc Network (MANET) is one amongst the foremost necessary and distinctive applications. Unfortunately, the open medium and remote distribution of MANET create it at risk of numerous kinds of attacks. So, it is crucial to develop efficient intrusion-detection mechanisms to protect MANET from attacks.In this paper, we define solid privacy requirements regarding malicious attackers in MANET. We propose and implement a new intrusion-avoidance system specially designed for MANETs. Compared to contemporary approaches, it demonstrates higher malicious-behaviour-avoidance rates in certain circumstances while does not greatly affect the network performances.

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C. Padmini

CALPAN: Countermeasure against Leakage Power Analysis attack by normalized DDPL

Design of Leakage Resilient and DPA Attack Immune Architecture of S BOX

PEARL: Performance analysis of ultra low power reversible logic circuits against DPA attacks

A Novel circuit of SRAM Cell Against Single-Event Multiple Effects for 45nm Technology

An Efficient Intruder Avoidance Method for MANETs

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